📝 SummarXiv

Abstract

A $(v,m,\ell,1)$-Circular External Difference Family (CEDF) is an $m$-sequence $(A_1, \ldots, A_m)$ of $\ell$-subsets of an additive group $G$ of order $v$ such that $G\setminus\{0\}$ equals the multiset of all differences $a-a'$, with $(a,a')\in A_i\times A_{i+1 \pmod{m}}$ for some $i$. CEDFs are a variation of External Difference Families, and have been recently introduced as a tool to construct non-malleable threshold schemes. The existence of a $(v,m,\ell,1)$-CEDF over the cyclic group is known only when the number of parts $m$ is even, while there cannot exist a cyclic CEDF for $m$ and $\ell$ both odd. In this work, we study the existence of cyclic CEDFs when $m$ is odd and $\ell$ is even: we construct cyclic $(v,m,\ell,1)$-CEDFs for any odd $m>1$ when $\ell=2$, and for any even $\ell \ge 2$ when $m=3$.